搜索结果: 1-4 共查到“物理学 LEDs”相关记录4条 . 查询时间(0.062 秒)
铅卤钙钛矿材料由于其优异的光致和电致发光性能,如大的吸收系数、高的载流子迁移率和发光量子产率等,在太阳能电池、发光二极管等领域具有重要的应用前景。然而,铅的毒性及较差的物化及光稳定性限制了其实际应用。为了降低毒性及改善发光性能,无铅金属卤化物得到了广泛的研究,但他们通常在紫外区域有强的吸收,很难被商用蓝光芯片激发,从而限制了其在WLEDs的发光效率与应用。因此我们基于广西的丰富锰资源, 开展锰基钙...
Atomistic Calculations Predict That Boron Incorporation Increases The Efficiency Of Leds(图)
Atomistic Calculations Predict Boron Incorporation Increases Leds
2017/12/18
High-power white LEDs face the same problem that Michigan Stadium faces on game day — too many people in too small of a space. Of course, there are no people inside of an LED. But there are many elect...
Spectral spatial coherence of high-power multi-chip LEDs
Spectral spatial coherence high-power multi-chip LEDs
2013/7/3
We investigate the spatial coherence of the light generated from high-power multi-chip red LEDs by using the van Cittert-Zernike theorem. It is theoretically demonstrated that the light generated from...
In the pursuit of environmentally-friendly lighting, organic LEDs have long been touted as an attractive option. They could be significantly more efficient than conventional lighting and unlike fluore...